激光与光电子学进展, 2017, 54 (4): 041901, 网络出版: 2017-04-19   

非周期极化铌酸锂晶体宽带倍频的理论研究 下载: 753次

Theoretical Study on Broadband Frequency Doubling in Aperiodically Poled Lithium Niobate Crystal
作者单位
南京邮电大学光电工程学院先进光子技术实验室, 江苏 南京 210023
摘要
宽带准相位匹配(QPM)在多波长和超短脉冲倍频等领域有着广泛应用。分析了铌酸锂晶体的准相位匹配和群速度匹配条件,利用遗传算法,对非周期极化铌酸锂(APPLN)晶体的结构进行优化设计,并提出了一种通过适当调整基波的位置和数量来优化非周期极化铌酸锂晶体倍频带宽的设计方法。研究表明,对于0型(e+e→e)准相位匹配,在群速度匹配点附近,周期极化铌酸锂(PPLN)晶体倍频带宽为167 nm,而非周期极化铌酸锂晶体最大倍频带宽可达440 nm,带宽增加了273 nm;I型(o+o→e)准相位匹配下,周期极化铌酸锂晶体在群速度匹配点附近的倍频带宽为59 nm,而非周期极化铌酸锂晶体最大倍频带宽可达153 nm,带宽增加了94 nm。
Abstract
Broadband quasi-phase-matching (QPM) is widely used in many fields, such as multi-wavelength and ultrashort pulse frequency doubling. The conditions of QPM and group velocity matching in lithium niobate crystal are analyzed. The optimized structure of aperiodically poled lithium niobate (APPLN) crystal is designed by genetic algorithm. Also, we present a method of optimizing the APPLN crystal second-harmonic generation (SHG) bandwidth by appropriately adjusting the position and quantity of the fundamental wavelengths. The results show that for QPM of type 0 (e+e→e) near the group velocity matching points, the SHG bandwidth in periodically poled lithium niobate (PPLN) crystal is about 167 nm, while the maximum SHG bandwidth in APPLN is up to 440 nm, and the bandwidth increases by 273 nm. For QPM of type I (o+o→e) near the group velocity matching points, the SHG bandwidth in PPLN is about 59 nm, while the maximum SHG bandwidth in APPLN is up to 153 nm, and the bandwidth increases by 94 nm.

蒋建, 张建东, 王凯, 肖璇, 张祖兴. 非周期极化铌酸锂晶体宽带倍频的理论研究[J]. 激光与光电子学进展, 2017, 54(4): 041901. Jiang Jian, Zhang Jiandong, Wang Kai, Xiao Xuan, Zhang Zuxing. Theoretical Study on Broadband Frequency Doubling in Aperiodically Poled Lithium Niobate Crystal[J]. Laser & Optoelectronics Progress, 2017, 54(4): 041901.

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